Abstract
Electron paramagnetic resonance (EPR) spectroscopy of glutamate mutase from Clostridium cochlearium was performed in order to test the idea, that a histidine residue of component S replaces the dimethylbenzimidazole ligand of the Co-atom during binding of coenzyme B 12 to the enzyme. The shapes and the superhyperfine splitting of the g z-lines of the Co(II) EPR spectra were used as indicators of the interaction of the axial base nitrogen with the Co-atom. A mixture of completely 15N-labelled component S, unlabelled component E, coenzyme B 12 and glutamate gave slightly sharper g z-lines than that with unlabelled component S. A more dramatic change was observed in the Co(II) spectrum of the inactivated enzyme containing tightly bound cob(II)alamin, in which unlabelled component S caused a threefold superhyperfine-splitting of the g z-line, whereas the 15N-labelled protein only caused a twofold splitting, as expected for a direct interaction of a nitrogen of the enzyme with the Co-atom. By using a sample of 15N-labelled component S, in which only the histidines were 14N-labelled, the EPR spectra showed no difference to those with unlabelled component S. The experiments indeed demonstrate a replacement of the dimethylbenzimidazole ligand in coenzyme B 12 by a histidine when bound to glutamate mutase. The most likely candidate is H16, which is conserved among the carbon skeleton rearranging mutases and methionine synthase.
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